粒细胞集落刺激因子可促进骨髓细胞迁移至梗死小鼠心脏，并分化为心肌细胞。

G-CSF promotes bone marrow cells to migrate into infarcted mice heart, and differentiate into cardiomyocytes.

作者信息

Fukuhara Shinya, Tomita Shinji, Nakatani Takeshi, Ohtsu Yoshinori, Ishida Michiko, Yutani Chikao, Kitamura Soichiro

机构信息

Department of Regenerative Medicine & Tissue Engineering, National Cardiovascular Center, Osaka, Japan.

出版信息

Cell Transplant. 2004;13(7-8):741-8. doi: 10.3727/000000004783983486.

DOI:10.3727/000000004783983486

PMID:15690975

Abstract

A recent study showed that granulocyte-colony stimulating factor (G-CSF) treatment improved the infarcted cardiac function. Although mobilized stem cells may affect it, the mechanism is unclear. In this study, we investigated the origins of stem cells and phenotypic changes of the migrated cells, and evaluated the efficacy of G-CSF. Eighteen C57BL/6 mice were irradiated (900 cGy) and GFP mouse-derived bone marrow cells (GFP-BMC: 10(6) cells) were injected via a tail vein followed by splenectomy 4 weeks later. Ligation of the left descending coronary artery was performed 2 weeks later. Recombinant human G-CSF (200 microg/kg/day) was injected for 3 days before and 5 days after ligation (group 1, n = 10). Saline was injected in group 2 (n = 8). Four weeks after infarction, hearts and other organs were fixed for histology. The survival rate after postoperative day 3 in group 1 was 100%, while that in group 2 was 50% (p = 0.03). Bone marrow-derived GFP cells (BMD-GFP) in group 1 (103.3+/-71.9/mm2) were located at the infarcted border area significantly more than those in group 2 (43.6+/-23.7/mm2) (p < 0.0001). BMD-GFP cells were positive for troponin I (16.6%), myosin heavy chain-slow (16.7%), and nestin (8.8%) in group 1. Ki-67-positive BMD-GFP in group 1 (10.0+/-7.0/mm2) were significantly more than those in group 2 (4.8+/-6.1/mm2) (p = 0.01). G-CSF increased the survival rate after infarction. G-CSF promoted BMC to migrate into the infarcted border area. Bone marrow was one of the origins of regenerated cardiomyocytes.

摘要

最近的一项研究表明，粒细胞集落刺激因子（G-CSF）治疗可改善梗死心肌功能。尽管动员的干细胞可能对此有影响，但其机制尚不清楚。在本研究中，我们调查了干细胞的来源和迁移细胞的表型变化，并评估了G-CSF的疗效。18只C57BL/6小鼠接受照射（900 cGy），经尾静脉注射来自绿色荧光蛋白（GFP）小鼠的骨髓细胞（GFP-BMC：10⁶个细胞），4周后行脾切除术。2周后结扎左冠状动脉。在结扎前3天和结扎后5天注射重组人G-CSF（200μg/kg/天）（第1组，n = 10）。第2组（n = 8）注射生理盐水。梗死后4周，取心脏和其他器官进行组织学固定。第1组术后第3天的存活率为100%，而第2组为50%（p = 0.03）。第1组骨髓来源的绿色荧光蛋白细胞（BMD-GFP）（103.3±71.9/mm²）在梗死边缘区域的定位明显多于第2组（43.6±23.7/mm²）（p < 0.0001）。第1组中BMD-GFP细胞肌钙蛋白I阳性率为16.6%，肌球蛋白重链慢型阳性率为16.7%，巢蛋白阳性率为8.8%。第1组中Ki-67阳性的BMD-GFP（10.0±7.0/mm²）明显多于第2组（4.8±6.1/mm²）（p = 0.01）。G-CSF提高了梗死后的存活率。G-CSF促进骨髓细胞迁移至梗死边缘区域。骨髓是再生心肌细胞的来源之一。

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粒细胞集落刺激因子可促进骨髓细胞迁移至梗死小鼠心脏，并分化为心肌细胞。

G-CSF promotes bone marrow cells to migrate into infarcted mice heart, and differentiate into cardiomyocytes.

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